RU2750832C1 - Pipeline repair method using sealing chamber with a fit frame - Google Patents

Abstract

FIELD: pipelining.

SUBSTANCE: invention relates to the field of repair of underwater pipelines. The pipeline repair method includes preliminary development of a pit, installation of reinforced concrete slabs on the prepared bottom, installation of a sealing chamber, installation of an adjustable frame on the body of the sealing chamber and fixing the pipeline with an adjustable frame. Installation of a service shaft connected to the mine pontoon, installation of the necessary sealing and sealing elements, installation of weights, pumping of water from the chamber, installation and connection of a life support system are performed. Inside the body, on the pipe, according to preliminary marking, sets of pipe fixing systems are installed, the jacks of which are installed at least 700 mm from the cutting line. On the defective section of the pipeline, the insulating coating is removed, additional flaw detection is performed to accurately determine the location of the defect. A machine for fireless cutting is fed through the service shaft, and it is mounted on the pipeline by means of hand hoists attached to the power flanges of the body of the sealing chamber. The cameras of the video surveillance system are directed to the cutting areas, eliminating the blind spots. The cut-out coil is secured with at least one hoist. The cutting of the pipeline is carried out in the absence of personnel, monitoring the progress of the cut through the cameras of the video surveillance system. The cut coil is lowered by means of hand hoists onto the floor of the sealing chamber and the slings are disconnected. The ends of the pipeline are sealed. The fireless cutting machine is dismantled and taken out through the service shaft. The cut coil is removed from the body of the containment chamber through the service shaft. A new coil is fed, the coil is lifted and brought to the ends of the pipeline. With the help of an external chain link centralizer, the coil is installed, welding is carried out, and the quality of welds is checked. Depressurization of the ends of the pipeline is performed, insulation of the coil and welded joints is performed. The sealing chamber is dismantled, the plates are dismantled, the foundation pit is washed.

EFFECT: invention performs its functions effectively.

9 cl, 4 dwg

Description

The invention relates to the field of construction and maintenance of oil pipelines and oil product pipelines (hereinafter pipelines), in particular to methods of repairing pipelines passing through water barriers.

A known method of repairing a pipeline using a sealing chamber (patent RU 2554693, IPC F16L 1/26. E02D 23/00. F16L 55/18. Op. 10.07.2014), consisting of an upper part and a lower rotatable part, connected to each other by corresponding connecting connectors, containing a submersible pump and installed in place of a pipeline defect to exclude contact of the pipeline with the environment, including fastening cargo braces on the lower rotatable part of the sealing chamber to prevent its rotation and swinging, lowering the lower rotated part of the sealing chamber with a connecting connector down to the contact of the stops with a pipeline, fastening the lower rotatable part of the containment chamber with clamps to the pipeline, turning the lower rotatable part of the containment chamber by 180 °, spacer and washing out the lower rotatable part of the containment chamber, installing the upper part of the containment chamber on the lower rotatable part of the containment the pressure chamber and bolting them to each other through sealing gaskets, securing the sealing chamber on the ground using ballast weights and filling, installing a shaft of the required length on the top of the sealing chamber with bolting through sealing gaskets, and the shaft is installed vertically taking into account the longitudinal slope of the pipeline at the mine installation site, and the required number and length of the mine sections are chosen taking into account the possible rise in the water level, sealing the walls of the sealing chamber along the flanges, sealing gaps in the annular holes of the sealing chamber, cleaning from soil, pumping water from the sealing chamber with a submersible pump, and provide regular pumping water out of the sealing chamber during the entire period of work, testing the tightness of the sealing chamber and carrying out repair work.

In this way, it is possible to eliminate defects in pipelines up to 11.5 m long underwater conditions by installing repair structures (KMT couplings, welded couplings), grinding. At the same time, this design is not suitable for repair by replacing the defective section of the pipeline (cutting the coil). In fact, for many types of defects, underwater crossings were subject to re-laying.

As a prototype, a method for repairing a pipeline using a sealing chamber with an adjustable frame, disclosed in the description of a utility model to patent RU 188233 (IPC F16L 55/18, F16L 1/26, E02D 23/00, B63C 11/38, publ. 03.04. 12). This method contains the following steps. The pit is preliminarily developed (washed out). Reinforced concrete slabs are installed on the prepared bottom, for example, PAG-18 in accordance with GOST 25912-2015. Plates are installed symmetrically about the pipeline axis. The angle of deviation of the horizontal position of the plates relative to the pipeline axis must ensure the operation of adjustable supports (outriggers). Further, the supply under the pipe and installation of the lower part of the shell with end elements and with adjustable supports removed from one longitudinal side (supplied under the pipeline) are carried out. Raise the lower part of the shell to the pipe and set it on inventory stands. Installation of two removed adjustable supports is carried out. Next, the upper part of the shell is installed. After assembling the body, a pre-assembled adjusting frame with divorced flaps is installed on the lodgments (the strength of the spatial structure is provided by the cross members), aligning the planes of the trusses with the bumpers. Next, the flaps are brought together, and the shells of each grip are tightened around the pipe with bolted connections, the stop screws are screwed in until the stop nozzles into the pipe. Then the service shaft is installed, the shaft pontoon is brought in and fastened to the shaft head through damping devices. During the installation process, the necessary sealing and sealing elements are installed. Weights are lowered onto the adjusting frame along the guides and installed on the seats. After the completion of the installation of the sealing chamber, water is pumped out of it, life support systems are mounted and connected (supply and exhaust ventilation systems, lighting systems, communication systems, video surveillance and video recording systems, gas pollution control systems, control systems for tilting the body and shaft of the sealing chamber, primary fire extinguishing equipment , evacuation equipment, personal protective equipment, respiratory protection equipment, personnel emergency evacuation systems). Inside the body, on the pipe, according to preliminary marking, sets of the pipe fixation system are installed, while the jacks are installed at least 700 mm from the cutting line (to ensure the possibility of a third cut, in case of jamming of the cut coil between the edges of the pipeline).

This method is only the first stage of repair work at underwater crossings. After installation, the sealing chamber ensures the creation of a working space around the underwater pipeline and fixation of the pipeline being repaired, in order to prevent its displacement during repair by cutting a coil (defective section of the pipeline). Actually, the work on cutting the coil and installing a new one is not disclosed in the specified source of information. Meanwhile, these works are characterized by a high level of complexity and danger. The lack of detailed study of the details (stages) of the method can lead to increased injuries and poor-quality work.

The objective of the invention was the development of a prototype method, which makes it possible to exclude most of the dangerous situations for personnel and to ensure high-quality repair of underwater pipelines at underwater crossings.

The specified task is achieved by the method of pipeline repair using a sealing chamber with an adjustable frame, including preliminary development of a pit under the pipeline section being repaired, installation of reinforced concrete slabs on the prepared bottom, installation on reinforced concrete slabs and installation of a sealing chamber body around the pipeline section being repaired, installation of an adjustable frame on the sealing chambers and fixation of the pipeline with an adjustable frame, installation of a service shaft and its connection to the containment chamber and a mine pontoon with technological equipment, installation of sealing and sealing elements, installation of weights on the seats on the adjusting frame of the containment chamber, pumping out water from the containment chamber, installation and connection of systems life support, video surveillance systems, fixation of the pipeline section being repaired by means of a pipe fixation system installed inside the body of the sealing chamber, cutting out a defective coil of the pipeline section being repaired, a tie-in into the pipeline of a new coil, in which, according to the proposal, the body of the sealing chamber is performed with a deck and power flanges, before fixing the repaired section of the pipeline with a fixation system installed inside the body of the sealing chamber, the insulation coating is removed from this section of the pipeline through at least one hand hoist is fed into the body of the sealing chamber with the help of the lifting mechanism of the mine pontoon and mounted in the body, then through the service shaft with the help of the lifting mechanism of the mine pontoon at least one machine for flameless cutting is supplied to the body of the sealing chamber, mounted it is attached to the pipeline by means of a manual hoist, before cutting out the defective coil, it is fixed with at least one manual hoist, after which the workers are removed from the sealing chamber and the pipeline is cut by at least one machine for fireless cutting along d control using cameras of the video surveillance system, after completing all the cuts, the workers are returned to the sealing chamber, the defective coil is lowered by means of at least one hand hoist onto the flooring of the body of the sealing chamber and disconnected from at least one hand hoist, then the sealing devices are mounted on the ends of the cut pipeline, dismantle at least one machine for fireless cutting and take it out of the sealing chamber through the service shaft using the hoisting mechanism of the mine pontoon, and then fix the cut out defective coil with a four-branch sling put on the hook of the hoisting mechanism of the mine pontoon, passing all four the branches of the four-branch sling inside the defective coil and fastening the hooks of the four-branch sling to the ends of the defective coil, dismantle the defective coil from the body of the sealing chamber through the service shaft, fix the new coil with the four-branch with a sling put on the hook of the mine pontoon lifting mechanism, it is fed into the sealing chamber through the service shaft and lowered longitudinally onto the flooring of the sealing chamber, the four-branch sling is disconnected from the new coil, the new coil is fixed with at least one hand hoist, it is lifted and brought to the ends of the pipeline, a chain external link centralizer is fed into the body of the sealing chamber through the service shaft, with the help of which a new coil is installed, a new coil is welded to the pipeline being repaired and the quality of welds is checked, after which the pipeline sealing devices are dismantled, the new coil is insulated and welded joints, dismantle the sealing chamber and wash the pit.

In this case, the fixation of the pipeline section being repaired is performed at four points, two points at each end of the cut pipeline.

In addition, life support systems are selected from the group consisting of a supply and exhaust ventilation system, a lighting system, a communication system, a gas pollution control system, a control system for the tilt of the hull and shaft of the containment chamber, primary fire extinguishing equipment, evacuation equipment, personal protective equipment, protective equipment breathing, emergency evacuation systems or combinations thereof.

Preferably, the pipe fixing system contains jacks, and the jacks are installed at least 700 mm from the cutting line and after dismantling the defective coil, the alignment of the ends of the cut pipeline is determined and, using the jacks of the fixation system installed inside the body of the sealing chamber, the deviation of the longitudinal axes of the ends of the cut pipeline to a value of no more than 1.5 °.

In addition, hand hoists are attached to the power flanges of the containment chamber body.

And also the cameras of the video surveillance system are directed to the sections of the cut, eliminating the formation of "blind" zones.

Moreover, after all the cuts have been completed, residues of oil or oil products that have flowed out of the depressurized pipeline are removed from the sealing chamber by means of a leakage pumping system.

The method is implemented using known machines and equipment. A detailed arrangement of a sealing chamber with a matching frame is known from patent RU188233. Flameless cutting machines are also widely known (see, for example, http://volzhankamrt.ru/mrt-volzhanka.html).

The invention is illustrated by drawings.

FIG. 1 shows a top view of a sealing chamber installed on a pipeline section being repaired.

FIG. 2 shows an end view of the containment chamber.

FIG. 3 shows the internal structure of the sealing chamber installed on the pipeline section to be repaired, top view.

FIG. 4 shows the internal structure of the sealing chamber installed on the pipeline section to be repaired, end view.

The repair of the pipeline using a sealing chamber with an adjustable frame begins with the preliminary development of a pit under the section of the pipeline being repaired and laying reinforced concrete slabs on the prepared bottom of the pit. A sealing chamber 2 is installed on reinforced concrete slabs (Figs. 1, 2, 3, 4), carrying out the installation of the housing of the sealing chamber around the repaired section of the pipeline 1. In this case, the housing 2 of the sealing chamber is made with flooring and power flanges. Then mount the fitting frame 3 on the body 2 of the sealing chamber (Fig. 1, 2) and fix the pipeline 1 (Fig. 1, 2, 3, 4) with the fitting frame 4 of the sealing chamber (Fig. 1, 2).

The service shaft is mounted (assembled) and connected to the sealing chamber 2 and the shaft pontoon equipped with various technological equipment (including a lifting mechanism). Install the necessary sealing and sealing elements.

Weights are installed on the seats on the adjusting frame 3 of the sealing chamber, with a pipeline depth of less than 5 meters from the water surface, only 4 pieces are mounted. loads (of 14 pcs.). Then, water is pumped out of the sealing chamber 2, video surveillance and life support systems are mounted and connected, such as ventilation (supply and exhaust), lighting, a communication system, a gas pollution control system, a system for monitoring the tilt of the body and shaft of the sealing chamber, a system for pumping out leaks, primary fire extinguishing means , evacuation equipment, personal protective equipment, respiratory protection equipment, personnel emergency evacuation system, or combinations thereof.

The repaired section of the pipeline 1 is freed from the insulating coating and fixed using the pipe fixing system 5 installed inside the housing 2 of the sealing chamber on the pipeline 1 to be repaired according to the preliminary marking. The pipe fixing system contains jacks 5 (Fig. 3, 4), which are installed at least 700 mm from the cutting line. In this case, the fixation of the section of pipeline 1 to be repaired is performed at four points, two points at each end of the cut pipeline. If there are weights and / or lining on the section of pipeline 1 being repaired, then before fixing it, these weights and / or lining are dismantled. In addition, additional flaw detection is performed to accurately determine the location of the defect.

Through the service shaft using the lifting mechanism of the mine pontoon, and in the case of installing the sealing chamber 2 at a distance of less than 20 meters from the shore using a truck crane, at least one hand hoist is fed into the housing of the sealing chamber and mounted in the housing. Then, also through the service shaft with the help of the mine pontoon hoisting mechanism, at least one machine for fireless cutting is fed into the sealing chamber body and mounted on the pipeline 1 (for example, using slings) by means of hand hoists attached to the power flanges of the sealing chamber body 2. CCTV cameras are directed to the cut areas, eliminating blind spots.

Before the start of the cut, the cut out defective coil is fixed with at least one hand hoist fixed on the power flanges of the housing 2 of the sealing chamber. Then, the working personnel are removed from the sealing chamber 2 and the pipeline 1 is cut by at least one machine for fireless cutting in the absence of personnel, monitoring the progress of the cut by means of video surveillance cameras. After completing all the cuts, the repair (working) personnel, equipped with personal protective equipment for respiratory organs (hose gas masks) and personal protective equipment against falls from a height with an evacuation function, returns to the sealing chamber. If necessary, with the help of pumps of the system for pumping out leaks from the sealing chamber 2, oil products that have flowed out of the depressurized pipeline are removed.

The defective coil is lowered by means of hand hoists onto the floor of the sealing chamber 2 and disconnected from the hand hoists (sling). After that, the ends of the cut pipeline are sealed. With the help of pumps of the leakage pumping system, if necessary, the residual oil product leaking from the depressurized pipeline is removed from the sealing chamber, and with the help of the installation of supply and exhaust ventilation, the body of the sealing chamber is degassed.

The machine (s) for flameless cutting is dismantled and taken out of the sealing chamber 2 through the service shaft using the mine pontoon hoisting mechanism (or truck crane). After that, the cut out defective coil is secured with a four-branch sling, put on the hook of the lifting mechanism of the mine pontoon (or truck crane), passing all four branches of the four-branch sling inside the defective coil and fixing the hooks of the four-branch sling to the ends of the defective coil. Dismantling (lifting) of the defective coil from the body 2 of the sealing chamber is carried out through the service shaft. If the cut-out coil is less than 1 meter long, it can be pushed aside and removed at the same time as the containment chamber body is removed.

After dismantling the defective coil, as a rule, the alignment of the ends of the cut pipeline is determined. The deviation of the longitudinal axes of the ends of the cut pipeline should not be more than 1.5 °. Otherwise, with the help of jacks 5 (Fig. 3, 4) installed inside the body of the sealing chamber, the deviation of the longitudinal axes of the ends of the cut pipeline is brought to the standard.

Further, the new coil is fixed with a four-branch sling, put on the hook of the lifting mechanism of a mine pontoon (or truck crane), fed into the sealing chamber 2 through the service shaft and lowered longitudinally onto the floor of the sealing chamber 2. Disconnect the four-branch sling from the new coil, fix the coil with hand hoists, then the new coil is lifted and brought to the ends of the pipeline. Using an external chain link centralizer (lowered through the service shaft), a new coil is installed and welded to the pipeline 1 being repaired. After that, the quality of the welds is checked, the pipeline sealing devices are dismantled, the new coil and welded joints are insulated. In conclusion, the installation of the lining and weights (if necessary), the dismantling of the sealing chamber, the dismantling of reinforced concrete slabs (if necessary) and the washing of the pit are carried out.

EFFECT: expanding the list of works carried out at the place of the detected defect, increasing the depths at which repair work is carried out, improving the quality of repair work, the technological process itself, including quality control of the work process and the final result, increasing the safety of repair work, because ... part of the work is carried out remotely and, as a result, the reduction in work time

Violation of the sequence of actions or the absence of any stages of the method leads to a slowdown in work, additional hazards for the maintenance personnel.

The claimed method was applied during acceptance tests underwater conditions on a test bench (pipeline DN 530 mm, thickness; walls - 16 mm, length of the cut coil 3 m), installed at a depth of 6 meters in the water area of the Volga River near the village of Bezvodnoye; at the underwater crossing of the main pipeline "Salavat-Orsk" across the river. Tashla (Du 530 mm; wall thickness - 8.9 mm), Republic of Bashkortostan, installed at a depth of 2 meters, a coil 1 meter long was cut out.

Claims (9)

1. A method of pipeline repair using a sealing chamber with an adjustable frame, including the preliminary development of a pit under the pipeline section being repaired, laying reinforced concrete slabs on the prepared pit bottom, installing on reinforced concrete slabs and mounting a sealing chamber body around the pipeline section being repaired, installing an adjustable frame on the sealing chambers and fixation of the pipeline with an adjustable frame, installation of a service shaft and its connection to the containment chamber and a mine pontoon with technological equipment, installation of sealing and sealing elements, installation of weights on the seats on the adjusting frame of the containment chamber, pumping out water from the containment chamber, installation and connection of systems life support, video surveillance systems, fixing the pipeline section being repaired by means of a pipe fixing system installed inside the body of the sealing chamber, cutting out the defective coil of the repaired section ka pipeline, a tie-in into the pipeline of a new coil, characterized in that the body of the sealing chamber is performed with a flooring and power flanges, before fixing the repaired section of the pipeline with a fixing system installed inside the body of the sealing chamber, the insulation coating is removed from this section of the pipeline through the service shaft with with the help of the mine pontoon hoisting mechanism, at least one hand hoist is fed into the body of the sealing chamber and mounted in the body, then through the service shaft with the help of the mine pontoon hoisting mechanism, at least one machine for fireless cutting is fed into the sealing chamber body, mounted on the pipeline by means of a manual hoist, before cutting out the defective coil, it is fixed with at least one manual hoist, after which the working personnel are removed from the sealing chamber and the pipeline is cut by at least one machine for flameless cutting under control using the camera of the video surveillance system, after all the cuts are completed, the workers are returned to the sealing chamber, the defective coil is lowered by means of at least one hand hoist onto the flooring of the sealing chamber body and disconnected from at least one hand hoist, then the sealing devices are installed at the ends of the cut pipeline, dismantle at least one machine for fireless cutting and take it out of the sealing chamber through the service shaft using the lifting mechanism of the mine pontoon, and then fix the cut out defective coil with a four-branch sling put on the hook of the lifting mechanism of the mine pontoon, passing all four branches of the four-branch sling inside of the defective coil and fastening the hooks of the four-branch sling to the ends of the defective coil, dismantle the defective coil from the body of the sealing chamber through the service shaft, then fix the new coil with a four-branch sling put on the hook the lifting mechanism of the mine pontoon, feed it into the sealing chamber through the service shaft and lower it longitudinally onto the floor of the sealing chamber, disconnect the four-branch sling from the new coil, fix the new coil with at least one hand hoist, lift it and bring it to the ends of the pipeline, into the body of the sealing the chambers feed an external chain link centralizer through the service shaft, with the help of which a new coil is installed, a new coil is welded to the pipeline being repaired, and the quality of welds is checked, after which the pipeline sealing devices are dismantled, the new coil and welded joints are isolated, and the dismantling is performed the sealing chamber and wash the pit. 2. A method according to claim 1, characterized in that the fixing of the pipeline section to be repaired is performed at four points, two points at each end of the cut pipeline. 3. The method according to claim 1, characterized in that the life support systems are selected from the group consisting of a supply and exhaust ventilation system, a lighting system, a communication system, a gas pollution control system, a control system for the tilt of the body and shaft of the containment chamber, primary fire extinguishing equipment, means evacuation, personal protective equipment, respiratory protection, personnel emergency evacuation systems or their combinations. 4. The method according to claim 1, characterized in that the pipe fixing system comprises jacks. 5. The method according to claim 4, characterized in that the jacks are installed at least 700 mm from the cutting line. 6. The method according to claim 4, characterized in that after dismantling the defective coil, the alignment of the ends of the cut pipeline is determined and, using jacks of the fixation system installed inside the body of the sealing chamber, the deviation of the longitudinal axes of the ends of the cut pipeline is adjusted to a value of no more than 1.5 ° ... 7. The method according to claim. 1, characterized in that the hand hoists are attached to the power flanges of the body of the sealing chamber. 8. The method according to claim. 1, characterized in that the cameras of the video surveillance system are directed to the sections of the cut, eliminating the formation of "blind" zones. 9. The method according to claim 1, characterized in that after all the cuts have been completed, residues of oil or oil products that have flowed out of the depressurized pipeline are removed from the sealing chamber by means of a leakage pumping system.

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